Gas turbine engine rotor assembly
First Claim
Patent Images
1. A method of manufacturing a rotor assembly for a gas turbine engine comprising the steps of:
- fabricating a metal disc having at least one axially extending annular flange at is radially outer periphery;
fabricating a circumferential array of spaced aerofoil shaped metal blades, each blade comprising an aerofoil portion and a root portion which has at least one axially extending flange shaped complementary to at least part of the circumference of the at least one annular flange of the disc;
mounting the array of blades on the radially outer periphery of the disc with the at least one flange of each blade confronting the at least one annular flange of the disc, the at least one flange of each blade and the at least one annular flange of the disc each being provided with at least two spaced circumferential grooves that cooperate to define at least two spaced circumferentially extending enclosed chambers at an interface between the at least one flange of each blade and the at least one annular flange of the disc;
sealing the interface between each at least one blade flange and the at least one annular disc flange at a location between a first of said chambers and free axial ends of each at least one blade flange and the at least one annular disc flange; and
subsequently hot isostatically pressing the resultant assembly thereby to achieve diffusion bonding between the array of blades and the disc and between the at least one flange of each blade and the at least one annular flange of the disc, and to collapse a second of said chambers thereby to provide a visual indication of success of the diffusion bonding.
1 Assignment
0 Petitions
Accused Products
Abstract
A circumferential array of aerofoil blades (11) comprising an aerofoil portion and a root portion is mounted on the periphery of a disc (14), sealed in place under vacuum and subsequently hot isostatically pressed to achieve diffusion bonding across the interface between the array (11) and the disc (14). Each of the root portion of the array (11) and the disc (14) is provided with axially extending flanges (12, 13, 15 and 16) at its axial ends. The flanges (12, 13, 15 and 16) are so dimensioned that when the array (11) is mounted on the disc (14) the flanges (12, 13, 15 and 16) engage each other in close fitting relationships in such a way that the array (11) and the disc (14) have an enclosed annular chamber radially spacing them apart. Annular chambers (18, 19) are provided at the interfaces of the confronting flanges (12, 13, 15 and 16), and the regions of the interfaces between the chambers (18) and the free axial ends of the flanges (12, 13, 15 and 16) are sealed by vacuum brazing. The outermost chambers (18) prevent the braze material from penetrating the interface between the array (11) and the disc (14), and from penetrating the second annular chambers (19). During hot isostatic pressing an enclosed annular chamber (20) collapses and diffusion bonding occurs between the array (11) and the disc (14) as well as between the flanges (12, 13, 15 and 16). The second annular chambers (19) are designed to collapse to provide a visual indication of the success of the pressing step.
-
Citations
11 Claims
-
1. A method of manufacturing a rotor assembly for a gas turbine engine comprising the steps of:
-
fabricating a metal disc having at least one axially extending annular flange at is radially outer periphery; fabricating a circumferential array of spaced aerofoil shaped metal blades, each blade comprising an aerofoil portion and a root portion which has at least one axially extending flange shaped complementary to at least part of the circumference of the at least one annular flange of the disc; mounting the array of blades on the radially outer periphery of the disc with the at least one flange of each blade confronting the at least one annular flange of the disc, the at least one flange of each blade and the at least one annular flange of the disc each being provided with at least two spaced circumferential grooves that cooperate to define at least two spaced circumferentially extending enclosed chambers at an interface between the at least one flange of each blade and the at least one annular flange of the disc; sealing the interface between each at least one blade flange and the at least one annular disc flange at a location between a first of said chambers and free axial ends of each at least one blade flange and the at least one annular disc flange; and subsequently hot isostatically pressing the resultant assembly thereby to achieve diffusion bonding between the array of blades and the disc and between the at least one flange of each blade and the at least one annular flange of the disc, and to collapse a second of said chambers thereby to provide a visual indication of success of the diffusion bonding. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
-
-
10. A method of manufacturing a rotor assembly for a gas turbine engine comprising the steps of:
-
fabricating a metal disc having at least one axially extending annular flange at its radially outer periphery; fabricating a circumferential array of spaced aerofoil shaped metal blades, each blade comprising an aerofoil portion and a root portion which has at least one axially extending flange shaped complementary to at least part of the circumference of the at least one annular flange of the disc; mounting the array of blades on the radially outer periphery of the disc with the at least one flange of each blade confronting the at least one annular flange of the disc, the root portion of each blade and the disc each being provided with at least two spaced grooves that cooperate to define at least two spaced enclosed chambers at an interface between the disc and the root portion of each blade; sealing the interface between the disc and the root portion of each blade at a location adjacent a first of said chambers; and subsequently hot isostatically pressing the resultant assembly thereby to achieve diffusion bonding between the array of blades and the disc and between the at least one flange of each blade and the at least one annular flange of the disc, and to collapse a second of said chambers thereby to provide a visual indication of success of the diffusion bonding.
-
-
11. A method of manufacturing a rotor assembly for a gas turbine engine comprising the steps of:
-
fabricating a member of circular cross-section; fabricating an array of aerofoil shaped blades, each blade comprising an aerofoil portion and a root portion; mounting each said blade on a radially outer peripheral portion of said member, the root portion of each said blade confronting said member, each said root portion and said member being provided with at least one pair of grooves that cooperate to define first and second enclosed chambers at an interface between said member and each said root portion; sealing the interface between each said root portion and said member at a location between the first chamber and a peripheral edge of each said root portion; and subsequently hot isostatically pressing the resultant assembly thereby to achieve diffusion bonding between each said blade and said member, and to collapse the second chamber thereby to provide a visual indication of success of the diffusion bonding.
-
Specification
-
- Resources
Litigation Campaign Assessment
Thank you for your request. You will receive a custom alert email when the Litigation Campaign Assessment is available.
×
-
Current AssigneeRolls-Royce PLC (Rolls-Royce Holdings Plc)
-
Original AssigneeRolls-Royce PLC (Rolls-Royce Holdings Plc)
-
InventorsWing, Rodney G.
-
Primary Examiner(s)Rosenbaum, Mark
-
Assistant Examiner(s)Chin, Frances
-
Application NumberUS07/076,832Time in Patent Office537 DaysField of Search29/156.8 R, 416/213, 228/175, 228/186, 228/193US Class Current29/889.21CPC Class CodesB23K 20/021 Isostatic pressure weldingB23K 20/24 Preliminary treatmentB23P 15/006 turbine wheelsF01D 5/3061 by welding, brazingY10T 29/49321 Assembling individual fluid...
